Sensitivity and Detection Limit of Concentration and Adsorption Measurements by Laser-induced Surface-plasmon Resonance

Overview

Journal Appl Opt

Date 2008 Feb 9

PMID 18259515

Citations 14

Authors

A A Kolomenskii

P D Gershon

H A Schuessler

Affiliations

Soon will be listed here.

Abstract

The shot noise limitation as well as other factors that influence the sensitivity of measurements with a surface plasmon resonance (SPR) sensor are considered. It is demonstrated that minute changes in the refractive index of a medium close to the surface of a metal film can be detected owing to a shift in the resonance angle. In particular, changes in the adsorption layer of only a fraction of a biomolecular monolayer could be measured. Data for SPR are presented with adjacent media of air, water, as well as aqueous solutions of ethanol and sodium chloride at different concentrations. The immobilization of the protein bovine serum albumin to a specially prepared surface was monitored with the SPR technique. Specific responses to changes in the concentration and thickness of the adsorption layer were determined. The angular resolution of the present apparatus is approximately 1 millidegree, corresponding to a detection limit for an adsorbed protein layer of 15 pg/mm(2), which is still 2 to 3 orders of magnitude larger than the shot-noise limit, and therefore a further improvement in sensitivity is possible.

Citing Articles

Fast, accurate, point-of-care COVID-19 pandemic diagnosis enabled through advanced lab-on-chip optical biosensors: Opportunities and challenges.

Asghari A, Wang C, Yoo K, Rostamian A, Xu X, Shin J Appl Phys Rev. 2021; 8(3):031313.

PMID: 34552683 PMC: 8427516. DOI: 10.1063/5.0022211.

2D Nanomaterial-Based Surface Plasmon Resonance Sensors for Biosensing Applications.

Singh S, Singh P, Umar A, Lohia P, Albargi H, Castaneda L Micromachines (Basel). 2020; 11(8).

PMID: 32824184 PMC: 7463818. DOI: 10.3390/mi11080779.

Investigating the Properties of Cetyltrimethylammonium Bromide/Hydroxylated Graphene Quantum Dots Thin Film for Potential Optical Detection of Heavy Metal Ions.

Anas N, Fen Y, Yusof N, Omar N, Ramdzan N, Daniyal W Materials (Basel). 2020; 13(11).

PMID: 32517196 PMC: 7321556. DOI: 10.3390/ma13112591.

Optical Thickness Monitoring as a Strategic Element for the Development of SPR Sensing Applications.

Luna-Moreno D, Sanchez-Alvarez A, Rodriguez-Delgado M Sensors (Basel). 2020; 20(7).

PMID: 32218108 PMC: 7181204. DOI: 10.3390/s20071807.

Development of Graphene Quantum Dots-Based Optical Sensor for Toxic Metal Ion Detection.

Anas N, Fen Y, Omar N, Daniyal W, Ramdzan N, Saleviter S Sensors (Basel). 2019; 19(18).

PMID: 31489912 PMC: 6766831. DOI: 10.3390/s19183850.